Better value missions

Scientists planning future missions to Mars could use the findings to fine-tune their experiments, potentially making their trips more valuable.

Meteorite experiments

To reach their findings, researchers from the University of Edinburgh, the Max Planck Institute in Germany and Utrecht University carried out experiments on samples from the Murchison meteorite, which fell on Australia more than 40 years ago.

The team took particles from the rock - which has a similar composition to meteorites on Mars - and exposed them to levels of ultraviolet radiation equivalent to sunlight on the red planet, which is cooler than Earth.

They found that the amount of methane given off by the particles was significant, and could account for a large part of the methane in Mars’ atmosphere.

Astrobiology input

The study, published in Nature, benefitted from related studies of methane and ultraviolet radiation supported by a Royal Society Leverhulme Trust Fellowship and the Natural Environment Research Council, with input from the UK Astrobiology Centre.

Whether or not Mars is able to sustain life is not yet known, but future studies should take into account the role of sunlight and debris from meteorites in shaping the planet’s atmosphere.

The University of Edinburgh

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“Recognised body” which has been
granted degree awarding powers.